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IEEE 802.15.1 – ”Bluetooth”IEEE 802.15.3 – High data rate WPANIEEE 802.15.4 – Low data rate WPAN
References
Ganz et al., Multimedia Wireless NetworksSiep, IEEE 802.15.1 TutorialGandolfo, IEEE 802.15.3 Overview/UpdateBarr, IEEE 802.15 TG3 and SG3aGutierrez, IEEE 802.15.4 TutorialShellhammer, Tutorial on 802.15.2 draft
IEEE 802.15 - General
Wireless Personal Area Networks (WPANs) Short Range Low Power Low Cost Small Networks
Communication within a persons operating space
IEEE 802.15.2
IEEE 802.15.2 Coexistence
between 802.15 and 802.11
Predefined traffic management rules for coexistence
Outline
IEEE 802.15.1 – ”Bluetooth”IEEE 802.15.3 – High data rate WPANIEEE 802.15.4 – Low data rate WPAN
IEEE 802.15.1 - General
Adopted the Bluetooth MAC and PHY specificationsIEEE 802.15.1 and Bluetooth are almost identical regarding physical layer, baseband, link manager, logical link control and apdation protocol, and host control interface
Outline
IEEE 802.15.1 – ”Bluetooth”IEEE 802.15.3 – High data rate WPANIEEE 802.15.4 – Low data rate WPAN
IEEE 802.15.3 - Overview
High data rate WPANPotential future standardMotivation: The need for higher bandwidths currently supported with 802.15.1 100 Mpbs within 10 meter 400 Mpbs within 5 meter
Data, High quality TV, Home cinema
IEEE 802.15.3 - Overview
Dynamic topology Mobile devices often join and leave the
piconet Short connection times
High spatial capacityMultiple Power Management modesSecure Network
IEEE 802.15.3 - Overview
Based on piconetsData Devices (DEV) establish peer-to-peer communicationIncludes also a Piconet Coordinator (PNC)
IEEE 802.15.3 - CAP
CAP Allows contention via CSMA/CD Command exchange between DEV
and PNC File transfers from DEV without
request
IEEE 802.15.3 - CFP
CFP Time slot allocation specified in the
beacon Reserved bandwidth for DEV MTS: Command, GTS: Data
IEEE 802.15.3 - GTS
GTS reservation DEV sends a Channel Time Request
(CTR) to PNC Isochronous data: number and duration
of slot(s) Asynchronous data: Total amount of data
PNC allocates GTSs to DEV via CTA DEV is responsible of utilizing
allocated GTSs
IEEE 802.15.3
Just to make sure... Isochronous signals: Significant
instants (e.g. Start of a bit) have the same duration
Anisochronous signals: Significant instants (e.g. Start of a bit) do not have the same duration
More accurate to use anisochronous instead of asynchronous when talking about a single signal
IEEE 802.15.3 - GTS
Two types of GTSs Dynamic GTS
Location within a superframe may change PNC can optimize channel utilization
Pseudostatic GTS Only for isochronous data Fixed location within a superframe May be changed, but only after a series
of notitications to the DEV
IEEE 802.15.3
Starting a piconet DEV scans the for the best channel
and sends out beacons -> the DEV becomes PNC
If no channels available: Establishes a child or neighbor piconet instead Requests a private GTS from parent PNC All communication takes place within
assigned GTS
IEEE 802.15.3 - QoS
QoS IEEE 802.15.3 supports both
synchronous and asynchronous data CAP offers only best-effort The PNC will allocate resources in the
CFP Through admission control Synchronous data: Based on number of
time slots per superframe, duration of slot, priority and GTS type
IEEE 802.15.3 - QoS
Asynchronous data: Based on total data and priority
After performing admission control, GTSs may be allocated
Outline
IEEE 802.15.1 – ”Bluetooth”IEEE 802.15.3 – High data rate WPANIEEE 802.15.4 – Low data rate WPAN
IEEE 802.15.4 - Overview
Low Rate WPAN (LR-WPAN)SimpleLow costLow power consumptionE.g. Sensor networksData rates: 20-250 kbps
IEEE 802.15.4 - DEVs
2 or more DEVs form a PAN2 different types of DEVs Full functional Device (FFD)
Coordinator and simple node Any topology Talks to any device
Reduced Functional Device (RFD) Simple node only, either source or desination Star topology only Talks to network coordinator only
IEEE 802.15.4 - QoS
QoS – 3 traffic types Periodic data: e.g. Sensor data Intermittent data: generated once a
while, e.g. Ligth witch traffic Repetitive low latency data: E.g.
Mouse device traffic
Sophisticated QoS mechanisms may reside in upper layers